Downstream processing of Scenedesmus sp. to obtain biostimulants

Downstream processing of Scenedesmus sp. to obtain biostimulants

There is a growing interest in applying natural products in agriculture to stimulate growth and/or resistance of plants, and ultimately to increase productivity without causing further environmental degradation. Microalgae synthesize a wide variety of high-value products, including phytostimulants....

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Bibliographic Details
Published in:Journal of applied phycology Vol. 35; no. 5; pp. 2193 - 2203
Main Authors: Navarro-López, E., Ruiz-Nieto, A., Gallardo-Rodríguez, J. J., Cerón-García, M. C., González-López, C. V., Acién-Fernández, F. G.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-10-2023
Springer Nature B.V
Subjects:
Agricultural production
Algae
Aquatic microorganisms
Beans
Bio-assays
Bioassays
Biomass
Biomedical and Life Sciences
Biomolecules
Bioremediation
Biostimulants
Cell disruption
Chemical engineering
Climate change
Crop yield
Crops
Cucumbers
Disruption
Distilled water
Ecology
Energy consumption
Environmental degradation
Enzymolysis
Flowers & plants
Freshwater & Marine Ecology
Germination
Homogenization
Hydrolysis
Life Sciences
Microalgae
Natural products
Optimization
Phytoplankton
Plant growth
Plant Physiology
Plant protection
Plant resistance
Plant Sciences
Plant species
Plants
Raw materials
Root development
Rooting
Rorippa nasturtium-aquaticum
Scenedesmus
Seeds
Sustainable agriculture
Ultrasonic imaging
Vegetables
Vigna radiata
Wastewater
Wastewater treatment
Watercress
Biostimulant
Cell disruption
Microalgae
Enzymatic hydrolysis
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Summary:There is a growing interest in applying natural products in agriculture to stimulate growth and/or resistance of plants, and ultimately to increase productivity without causing further environmental degradation. Microalgae synthesize a wide variety of high-value products, including phytostimulants. Even if applied to plants in small proportions, these substances can increase crop yield and protect the plants from biotic and abiotic stress. The microalga Scenedesmus sp . was grown in simulated treated wastewater to demonstrate its ability to bioremediate and to be a source of phytostimulants. Optimization of the cell disruption method is required to improve the extraction of biomolecules. Therefore, in this work, cell disruption methods, namely high-pressure homogenization (HPH), ultrasonication (US), and hydrolysis, were compared. To evaluate the biostimulant potential, extracts were evaluated using the germination index of watercress seeds, rooting bioassay in mung bean and cucumber, and cotyledon expansion in cucumber. There was a 44% increase in the germination index when watercress were treated with a combination of HPH and enzymatic hydrolysis disrupted extracts. In the mung bean bioassay, the best results were obtained with extracts prepared by HPH and enzymatic hydrolysis, achieving 160% rooting compared to 100% rooting in the control treated with distilled water. For rooting activity in cucumber, the best results were obtained after biomass pre-treatment by HPH, both with or without the enzymatic hydrolysis treatment, achieving maximum root development values of 275%. Differences in cotyledon expansion were not significant. This work demonstrated the biostimulant effect of Scenedesmus sp. biomass on three plant species. HPH and enzymatic hydrolysis increased the overall effect although their inclusion might not be economical.
ISSN:0921-8971
1573-5176
DOI:10.1007/s10811-023-03039-3